Adverse Events with D-penicillamine Therapy in Hepatic Wilson's Disease: A Single-Center Retrospective Audit

Epidemiology and effect of psychiatric comorbidities on survival rates in patients with systemic sclerosis: A nationwide population-based cohort study

BACKGROUND

Systemic sclerosis (SSc) is a chronic, disabling connective tissue disease with a considerable psychological burden. While studies suggest a higher prevalence of psychiatric disorders in SSc, most have small sample sizes.

METHODS

Using Taiwan's National Health Insurance Research Database, we identified 3270 SSc patients from the catastrophic illness registry and matched them 1:4 by age and sex with 13,080 controls. We compared the incidence rate ratios (IRRs) of new psychiatric disorder diagnoses between the two groups and analyzed risk factors using a Cox proportional hazards model. Kaplan-Meier analysis and log-rank test were used to compare survival in SSc patients with and without psychiatric conditions (matched at a 1:4 ratio by age, sex and CCI). We compared psychiatric disorder incidence rates.

RESULTS

The SSc group had a significantly higher incidence of psychiatric disorders than controls (IRR = 1.66, p < 0.001). In SSc patients, treatment with an oral daily steroid dose of ≥7.5 mg (hazard ratio [HR] = 1.71, p = 0.010), intravenous steroid pulse therapy (HR = 2.34, p < 0.0042), or D-penicillamine (HR = 1.60, p < 0.001) served as an independent risk factor for psychiatric comorbidities. SSc patients with psychiatric comorbidities had significantly lower survival rates than those without.

CONCLUSIONS

Patients with SSc are at an increased risk of psychiatric comorbidities, which can negatively affect their survival rates. Treatment with a daily oral steroid dose of ≥7.5 mg, intravenous steroid pulse therapy, or D-penicillamine is a risk factor for psychiatric comorbidities in SSc.

Practical and Multidisciplinary Review on Wilson Disease: The Portuguese Perspective

Wilson disease (WD) is a genetic disorder of copper metabolism caused by mutations in the ATP7B gene resulting in toxic copper accumulation in several organs. WD can manifest as liver disease, a progressive neurological disorder, a psychiatric illness, or a combination of these. Other clinical manifestations can also occur. Diagnosis is challenging and typically requires a range of biochemical tests, imaging, genetic testing for ATP7B, and/or liver biopsy. WD is treatable with chelating agents, such as d-penicillamine and trientine, and/or zinc salts alongside with dietary copper restriction. Liver transplantation may be indicated in WD patients with severe hepatic disease, and cautiously considered in patients with neurological WD. Treatment success highly depends on patient adherence and treatment persistence. Therefore, effective interventions for improving patient adherence and close monitoring are key for preventing WD progression. In Portugal, there are no reference centers for WD, and patients are dispersed across numerous medical specialists. This review aimed to summarize the most recent and relevant information for the diagnosis, treatment, and monitoring of WD in Portugal, as well as possible interventions for stimulating adherence to treatment.

Research progress in stem cell therapy for Wilson disease

Wilson disease (WD), also known as hepatolenticular degeneration, is an autosomal recessive disorder characterized by disorganized copper metabolism caused by mutations in the ATP7B gene. Currently, the main treatment options for WD involve medications such as d-penicillamine, trientine hydrochloride, zinc acetate, and liver transplantation. However, there are challenges that encompass issues of poor compliance, adverse effects, and limited availability of liver sources that persist. Stem cell therapy for WD is currently a promising area of research. Due to the advancement in stem cell directed differentiation technology in vitro and the availability of sufficient stem cell donors, it is expected to be a potential treatment option for the permanent correction of abnormal copper metabolism. This article discusses the research progress of stem cell therapy for WD from various sources, as well as the challenges and future prospects of the clinical application of stem cell therapy for WD.

Deadly excess copper

Higher eukaryotes' life is impossible without copper redox activity and, literally, every breath we take biochemically demonstrates this. However, this dependence comes at a considerable price to ensure target-oriented copper action. Thereto its uptake, distribution but also excretion are executed by specialized proteins with high affinity for the transition metal. Consequently, malfunction of copper enzymes/transporters, as is the case in hereditary Wilson disease that affects the intracellular copper transporter ATP7B, comes with serious cellular damage. One hallmark of this disease is the progressive copper accumulation, primarily in liver but also brain that becomes deadly if left untreated. Such excess copper toxicity may also result from accidental ingestion or attempted suicide. Recent research has shed new light into the cell-toxic mechanisms and primarily affected intracellular targets and processes of such excess copper that may even be exploited with respect to cancer therapy. Moreover, new therapies are currently under development to fight against deadly toxic copper.

Unveiling drug induced nephrotoxicity using novel biomarkers and cutting-edge preventive strategies

Drug-induced nephrotoxicity is still a significant obstacle in pharmacotherapy of various diseases and it accounts for around 25 % of serious side-effects reported after drug administration. Furthermore, some groups of drugs such as nonsteroidal anti-inflammatory drugs, antibiotics, antiviral drugs, antifungal drugs, immunosuppressants, and chemotherapeutic drugs have the "preference" for damaging the kidney and are often referred to as the kidney's "silent killer". Clinically, the onset of acute kidney injury associated with drug administration is registered in approximately 20 % of patients and many of them develop chronic kidney disease vulnerability. However, current knowledge about the mechanisms underlying this dangerous phenomenon is still insufficient with many unknowns. Hence, the valuable use of these drugs in clinical practice is significantly limited. The main aim of this study is to draw attention to commonly prescribed nephrotoxic drugs by clinicians or drugs bought over the counter. In addition, the complex relationship between immunological, vascular and inflammatory events that promote kidney damage is discussed. The practical use of this knowledge could be implemented in the engineering of novel biomarkers for early detection of drug-associated kidney damage such as Kidney Injury Molecule (KIM-1), lipocalin associated with neutrophil gelatinase (NGAL) and various microRNAs. In addition, the utilization of artificial intelligence (AI) for the development of computer algorithms that could detect kidney damage at an early stage should be further explored. Therefore, this comprehensive review provides a new outlook on drug nephrotoxicity that opens the door for further clinical research of novel potential drugs or natural products for the prevention of drug-induced nephrotoxicity and accessible education.

Treating the Neurologic Manifestations of Wilson's Disease With Liver Transplantation

Wilson's Disease (WD) manifests with systemic and neuropsychiatric symptoms, caused by an ATP7B genetic mutation, leading to an accumulation of copper. Presentations are diverse and the diagnosis should be considered in anyone under 50 with a new onset movement disorder. Early recognition and treatment can limit morbidity. While liver transplantation (LT) is recommended in WD patients with hepatic failure, its use for pure neurologic indication remains controversial. We present a patient who failed medical management and underwent LT for pure neurologic indications. Subsequent neurologic symptom improvement supports the use of LT for patients with pure neurologic manifestations of WD.

Chelation Combination-A Strategy to Mitigate the Neurotoxicity of Manganese, Iron, and Copper?

The chelating thiol dimercaptosuccinate (DMSA) and the traditional agent D-penicillamine (PSH) are effective in enhancing the urinary excretion of copper (Cu) and lead (Pb) in poisoned individuals. However, DMSA, PSH, EDTA (ethylenediamine tetraacetate), and deferoxamine (DFOA) are water-soluble agents with limited access to the central nervous system (CNS). Strategies for mobilization of metals such as manganese (Mn), iron (Fe), and Cu from brain deposits may require the combined use of two agents: one water-soluble agent to remove circulating metal into urine, in addition to an adjuvant shuttler to facilitate the brain-to-blood mobilization. The present review discusses the chemical basis of metal chelation and the ligand exchange of metal ions. To obtain increased excretion of Mn, Cu, and Fe, early experiences showed promising results for CaEDTA, PSH, and DFOA, respectively. Recent experiments have indicated that p-amino salicylate (PAS) plus CaEDTA may be a useful combination to remove Mn from binding sites in CNS, while the deferasirox-DFOA and the tetrathiomolybdate-DMSA combinations may be preferable to promote mobilization of Fe and Cu, respectively, from the CNS. Further research is requested to explore benefits of chelator combinations.